Integrating structure from motion, numerical modelling and field measurements to understand carbonate sediment transport in coral reef canopies
Reef canopies are complex and extremely variable across a range of spatial scales. This variability affects the velocity above as well as within the canopy, and directly impacts the transport of sediment along the bed as well as suspended in the water column. How a canopy affects the transport of sediment is important to understand and predict changes in the position of the adjacent shoreline, particularly as reefs change. In this study, high-resolution seabed complexity models derived from photogrammetry for low roughness and high roughness canopy sites at Moloka’i (Hawai’i) are combined with direct field measurements and three-dimensional numerical modelling to investigate these canopy and sub-canopy impacts on velocity and sediment transport.
Citation Information
| Publication Year | 2019 |
|---|---|
| Title | Integrating structure from motion, numerical modelling and field measurements to understand carbonate sediment transport in coral reef canopies |
| DOI | 10.1142/9789811204487_0083 |
| Authors | Andrew Pomeroy, Curt D. Storlazzi, Kurt J. Rosenberger, Gerry Hatcher, Jonathan Warrick |
| Publication Type | Conference Paper |
| Index ID | 70204496 |
| Record Source | USGS Publications Warehouse |
Related Content
Curt Storlazzi, PhD
Research Geologist
Kurt Rosenberger
Oceanographer
Jonathan Warrick
Research Geologist
Related Content
- Connect
Curt Storlazzi, PhD
Research GeologistEmailPhoneKurt Rosenberger
OceanographerEmailPhoneJonathan Warrick
Research GeologistEmailPhone